US6057121A - Method of catalyzing stereochemical reactions - Google Patents
Method of catalyzing stereochemical reactions Download PDFInfo
- Publication number
- US6057121A US6057121A US08/478,954 US47895495A US6057121A US 6057121 A US6057121 A US 6057121A US 47895495 A US47895495 A US 47895495A US 6057121 A US6057121 A US 6057121A
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- monoclonal antibody
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- stereoisomer
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- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
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- C12P—FERMENTATION OR ENZYME-USING PROCESSES TO SYNTHESISE A DESIRED CHEMICAL COMPOUND OR COMPOSITION OR TO SEPARATE OPTICAL ISOMERS FROM A RACEMIC MIXTURE
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2333/00—Assays involving biological materials from specific organisms or of a specific nature
- G01N2333/90—Enzymes; Proenzymes
- G01N2333/914—Hydrolases (3)
- G01N2333/948—Hydrolases (3) acting on peptide bonds (3.4)
- G01N2333/95—Proteinases, i.e. endopeptidases (3.4.21-3.4.99)
- G01N2333/964—Proteinases, i.e. endopeptidases (3.4.21-3.4.99) derived from animal tissue
- G01N2333/96425—Proteinases, i.e. endopeptidases (3.4.21-3.4.99) derived from animal tissue from mammals
- G01N2333/96427—Proteinases, i.e. endopeptidases (3.4.21-3.4.99) derived from animal tissue from mammals in general
- G01N2333/9643—Proteinases, i.e. endopeptidases (3.4.21-3.4.99) derived from animal tissue from mammals in general with EC number
- G01N2333/96472—Aspartic endopeptidases (3.4.23)
Definitions
- the present invention relates to the use of monoclonal antibodies to catalyze stereochemical reactions.
- Monclonal antibodies are immunoglobulins produced by hybridoma cells.
- a monoclonal antibody reacts with a single antigenic determinant and provides greater specificity than a conventional, serum-derived antibody.
- screening a large number of monoclonal antibodies makes it possible to select an individual antibody with desired specificity, avidity, and isotype.
- Hybridoma cell lines provide a constant, inexpensive source of chemically identical antibodies and preparations of such antibodies can be easily standardized.
- Methods for producing monoclonal antibodies are well known to those of ordinary skill in the art, e.g., Koprowski, H., et al., U.S. Pat. No. 4,196,265, issued Apr. 1, 1980.
- Antigen recognition by a monoclonal antibody is attributable to a specific combining site in the N-terminal region of the immunoglobulin (Ig) molecule.
- Ig molecules are thought to react with antigens via the same types of short range forces characteristic of all protein--protein interactions.
- Antigen-antibody interactions are highly specific because of the complementary three-dimensional shapes of the antibody's combining site and of the corresponding antigentic determinant or epitope. Such complementary shapes permit the molecules to approach each other closely and to interact over a substantial surface area.
- the specificity of antibody-antigen interactions is evidenced by the fact that changes in the configuration of the antigenic determinant result in marked decreases in the binding constant of the antigen to the antibody.
- the binding constant of an antibody for its antigen is generally much higher than that of an enzyme for its substrate.
- Monoclonal antibodies have also been used to recover materials by immunoadsorption chromatography, e.g., Milstein, C., 1980, Scientific American 243:66, 70.
- the reactants undergo a series of transitions passing through different states until the products are reached.
- these transitions through intermediate states reflect changes in bond lengths, angles, etc.
- the transition from reactants to products may be viewed as involving formation of an intermediate which decomposes to produce the products.
- the overall rate of the reaction can be expressed in terms of the equilibrium constant characterizing the equilibria between the reactants, the intermediate and the products.
- Catalysis can be regarded as a stabilization of the intermediate with respect to the state of the reactants.
- a catalyst is a substance that increases the rate of the reaction and is recovered substantially unchanged chemically at the end of the reaction. Although the catalyst is not consumed, it is generally agreed that the catalyst participates in the reaction.
- the present invention overcomes these limitations by providing a novel approach to catalysis.
- the invention provides a method for the preparation and use of monoclonal antibodies as convenient, readily obtainable and inexpensive catalysts having a degree of specificity and efficiency of action not previously achievable in the catalytic arts.
- the present invention relates to a method involving monoclonal antibodies for increasing the rate of a chemical reaction involving conversion of at least one reactant to at least one product.
- the reactant(s) is (are) contacted with an appropriate monoclonal antibody under conditions suitable for the formation of a complex between the monoclonal antibody and the reactant(s).
- the complexed reactant(s) is (are) converted to the product(s), and the product(s) released from the complex.
- this invention is useful in increasing the rate of chemical reactions which can also be catalyzed by enzymes such as oxidoreductases, transferases, hydrolases, lyases, isomerases and ligases.
- this invention is useful in increasing the rate of chemical reactions for which no catalytic enzymes are known. Such reactions include among others, oxidations, reductions, additions, condensations, eliminations, substitutions, cleavages and rearrangements.
- the rate of the chemical reaction may be increased by more than a hundred-fold and preferably more than ten thousand-fold.
- a solution phase or emulsion reaction system including a protic solvent, preferably water, maintained at a pH value between about 6.0 and about 8.0, preferably between about 6.0 and about 7.5, and maintained at a temperature from about 4° C. to about 50° C., preferably between about 20° C. and about 45° C.
- the ionic strength ⁇ 1/2 ⁇ c i z i 2 , where c is the concentration and z is the charge of an ionic solute. It should be maintained at a value below 2.0 moles/liter, preferably between about 0.1 and 1.5 moles/liter.
- the method of this invention may be carried out under reduced or elevated pressure, but preferably is practiced at ambient pressure.
- the monoclonal antibody is further characterized by an r 1 >r 0 , where r 1 is the rate of formation of the complex between the antibody and the reactant and where r 0 is the rate of the chemical reaction in the absence of monoclonal antibody, by an r 2 >r 0 , where r 2 is the rate of the conversion of the complexed reactant to the complexed product and by an r 3 >r 0 , where r 3 is the rate of release of the product from the complex.
- anti-idiotype monoclonal antibodies are prepared for known enzyme-substrate systems.
- the anti-idiotype monoclonal antibodies can be used to increase the rate of conversion of the substrate to the product and are not subject to allosteric control.
- the present invention provides methods for increasing the rate of a chemical reaction involving conversion of at least one reactant to at least one product.
- the reactant(s) is (are) contacted with at least one appropriate monoclonal antibody under suitable conditions permitting the formation of a complex between the monoclonal antibody and the reactant(s), conversion of the reactant(s) to the product(s) and release of the product(s) from the complex.
- the monoclonal antibodies useful in the present invention are prepared by modification of the technique disclosed by Koprowski et al. in U.S. Pat. No. 4,196,265, issued Apr. 1, 1980, which is hereby incorporated by reference. The details of that process are well known to those of ordinary skill in the art.
- a series of monoclonal antibodies directed to the reactant are prepared under suitable conditions. This involves first immunizing BALB/C mice with an appropriate antigen.
- the antigen may be the desired reactant; the desired reactant bound to a peptide or other carrier molecule; a reaction intermediate or an analog of the reactant, the product or a reaction intermediate.
- Analog as the term is used herein encompasses isomers, homologs or other compounds sufficiently resembling the reactant in terms of chemical structure such that an antibody raised against the analog may participate in an immunological reaction with the reactant but will not necessarily catalyze a reaction of the analog.
- the reaction to be catalyzed is the cleavage of o-nitrophenyl- ⁇ -D-galactoside
- the antigen may be the analog dinitrophenol bound to a carrier, e.g. keyhole limpet hemocyanin, or the antigen may be the reactant o-nitrophenyl- ⁇ -D-galactoside.
- the antigen may be the analog 3-glycyl-4-hydroxy-4-methyl-1,5-hepatanedioic acid: ##STR3##
- Antibody-producing lymphocytes are then removed from the spleens of the immunized mice and hybridized with myeloma cells such as SP2/0 cells to produce hybridoma cells.
- hybridoma cells are then plated in the wells of microtiter plates.
- the series of monoclonal antibodies being produced by the hybridoma cells is screened under appropriate conditions to identify monoclonal antibodies which catalyze the desired reaction under appropriate conditions. Screening may be conveniently accomplished by treating a standardized solution of the reactant with an aliquot of medium withdrawn from a microtiter well and measuring the presence of the desired product by conventional instrumental methods. This measurement may be readily conducted, for example by spectophotometric methods or by gas-liquid or high presure liquid chromatography. By comparison with standardized samples of the desired product or reactant, rates of reaction may be quantified. In this manner, wells containing hybridoma cells producing catalytic monoclonal antibodies are identified. The selected hybridoma cells are then cultured to yield colonies.
- mice such as syngeneic BALB/C mice are inoculated intraperitoneally with the selected hybridoma cells and produce tumors, generally within two or three weeks. These tumors are accompanied by the production of ascites fluid which contains the desired monoclonal antibodies. The monoclonal antibodies are then separately recovered from the ascites fluid by conventional methods such as ultrafiltration, ultracentrifugation, dialysis and immunoaffinity chromatography.
- K is defined as the ratio of the affinity constant of the monoclonal antibody for the reactant, k r , to the affinity constant of the monoclonal antibody to the product, k p .
- the equation reflects the fact that the monoclonal antibody has a stronger binding affinity to the reactant than it does to the product.
- the binding affinity of the monoclonal antibody for the complexed molecule decreases, and the molecule, the product, is released from the complex, thereby regenerating the free monoclonal antibody catalyst.
- K is greater than 10 2 .
- Equations (2), (3) and (4) describe the kinetic characteristics of the monoclonal antibodies useful in this invention.
- Equation (2) states that r 1 , defined as the rate of formation of the complex between the antibody and the reactant, must be greater than r 0 where r 0 is the rate of the chemical reaction in the absence of monoclonal antibody.
- Equation (3) states that r 2 , defined as the rate of conversion of the complexed reactant to the complexed product, must be greater than r 0 .
- Equation (4) states that r 3 , defined as the rate of release of the product from the complex, must be greater than r 0 .
- the monoclonal antibodies of this invention can effect a rate acceleration in chemical reactions preferably by more than a factor of 10 2 and even more preferably by more than a factor of 10 4 .
- the separately recovered monoclonal antibodies are contacted with the reactant under suitable conditions permitting the formation of a complex between the monoclonal antibody and the reactant.
- suitable conditions for complex formation encompass solution phase and emulsion reaction systems including a protic solvent, preferably water, maintained at a pH value between about 6.0 and about 8.0, preferably between about 6.0 and about 7.5 and at a temperature from about 4° C.
- the method of this invention may be carried out at reduced or elevated pressure, but preferably is practiced at ambient pressure.
- suitable conditions also include the use of support materials to which the monoclonal antibody is attached. Such support materials are well-known to those of ordinary skill in the art as are methods for attaching monoclonal antibodies to them.
- the method of this invention is widely useful to increase the rate of any chemical reaction.
- This method is applicable, for example, to chemical reactions involving the conversion of one reactant to one product.
- Such reactions include the conversion of an aketo acid to an ⁇ -amino acid, and can be illustrated by the conversion of indole pyruvic acid to L-tryptophan.
- Another example is provided by the conversion of a cyclic polynucleotide to a linear polynucleotide, the term "polynucleotide" being used herein to include both poly- and oligonucleotides.
- the method of this invention is also applicable to chemical reactions of more complex stoichiometry.
- the rate of reactions involving the conversion of two reactants to one product can also be increased in accordance with this invention.
- An example of such a reaction is the conversion of two molecules of aminolevulinic acid into one molecule of porphobilinogen.
- the method is also useful for reactions involving the conversion of one reactant into two products. Such reactions may be illustrated by the conversion of a ⁇ -D-galactoside into D-galactose and a second product, as well as by the cleavage of a polynucleotide, polypeptide or polysaccharide into two fragments derived respectively therefrom.
- polypeptide and polysaccharide include poly- and oligopeptides and poly- and oligosaccharides, respectively.
- the method has further utility in increasing the rate of chemical reactions involving the conversion of one reactant into multiple products.
- Such reactions include among others, the conversion of polynucleotides, polypeptides and polysaccharides into fragments derived respectively therefrom.
- a reactant is contacted with more than one monoclonal antibody each of which is directed to a different determinant on the reactant.
- the reactant is a polynucleotide and the monoclonal antibodies are directed to different nucleotide sequences within the polynucleotide, specific polynucleotide fragments may be cleaved from the reactant.
- the method is also useful in increasing the rate of reactions involving the conversion of two reactants into two products.
- Such reactions include the exchange of functional groups between one reactant and a second reactant to yield two new products, e.g. transesterification.
- the method of this invention is useful over the wide variety of chemical reactions including oxidations, reductions, additions, condensations, eliminations, substitutions, cleavages and rearrangements among others.
- monoclonal antibodies may be prepared which interact with a polynucleotide only at a specific nucleotide sequence or with a peptide only at a specific amino acid sequence.
- the method of this invention may be used to increase the rate of reactions which may also be catalyzed by an enzyme.
- the enzyme may be an oxidoreductase, such as alcohol dehydrogenase, glucose oxidase, xanthine oxidase, dihydrouracil dehydrogenase or L-amino acid oxidase; a transferase such as guanidinoacetate methyl transferase, serine hydroxymethyl transferase or aspartate aminotransferase; a hydrolase such as acetylcholinesterase, glucose-6-phosphatase or a phosphodiesterase; a lyase such as pyruvate decarboxylase, aldolase or histidine ammonia-lyase; an isomerase such as ribulose phosphate epimerase or a ligase such as tyrosyl-tRNA synthase or acetyl CoA carboxy
- this method may be used to increase the rate of conversion of two molecules of aminolevulinic acid to one molecule of porphobilinogen, a reaction catalyzed in nature by the enzyme aminolevulinic acid dehydratase; to increase the rate of conversion of a cyclic polynucleotide to a linear polynucleotide or of a linear polynucleotide to two or more fragments thereof, reactions involving cleavage of a specific phosphodiester bond in the polynucleotide catalyzed in nature by phosphodiesterase (restriction) enzymes; to increase the rate of conversion of an ⁇ -keto acid such as indole pyruvic acid to an ⁇ -amino acid such as L-tryptophan, a reaction involving transfer of an amino group from a reactant to a product catalyzed in nature by a transaminase enzyme; and to increase the rate of conversion of a ⁇ -D-galact
- monoclonal antibodies directed to an antigen which is a known substrate for an enzyme are prepared and used to increase the rate of conversion of the substrate to the product.
- This method is useful for example in increasing the rate of conversion of o-nitrophenyl- ⁇ -D-galactoside, a known substrate for the enzyme ⁇ -D-galactosidase, to o-nitrophenol and D-galactose.
- a series of monoclonal antibodies to the enzyme are prepared by inoculating BALB/C mice with the enzyme and proceeding according to the general technique described above. The series of antibodies so produced is screened under suitable conditions to identify a first monoclonal antibody which binds to the active site of the enzyme.
- Such a monoclonal antibody may be identified by screening for antibodies which under appropriate conditions inhibit binding of the antigen (substrate) to the enzyme. This screening process may be conveniently carried out by conventional methods of measuring enzyme binding activity, e.g. radioimmunoassay (RIA).
- RIA radioimmunoassay
- anti-idiotype monoclonal antibodies is then screened according to the general method to identify anti-idiotype monoclonal antibodies which bind the antigen (substrate) under suitable conditions and convert it to the product.
- suitable conditions are meant conditions within the parameters described above for antibody-reactant complex formation.
- An anti-idiotype monoclonal antibody so produced and separately recovered may be used in accordance with this invention to increase the rate of conversion of substrate to product.
- Allosteric enzymes are enzymes which are stimulated or inhibited by a modulator molecule which may be the substrate, the product or some other molecule.
- a modulator molecule which may be the substrate, the product or some other molecule.
- the kinetic behavior of allosteric enzymes is greatly altered by variations in the concentration of the modulator(s).
- a relatively simple example of allosteric behavior may be illustrated by an enzyme which is subject to feedback inhibition. In such a case, the catalytic efficiency of the enzyme decreases as the concentration of an immediate or subsequent product increases. Use of such enzymes in many applications is thus limited and requires continuous removal of product.
- use of the appropriate anti-idiotype monoclonal antibody which is not subject to allosteric control in place of the enzyme can thus overcome the problems and limitations of allosterism.
- cofactors such as pyridoxal phosphate, nicotinamide adenine dinucleotide, nicotinamide adenine dinucleotide phosphate, flavin adenine dinucleotide, adenosine triphosphate, thiamine pyrosphospohate, flavin mononucleotide, biotin, tetrahydrofolic acid, coenzyme B12 and coenzyme A.
- cofactors such as pyridoxal phosphate, nicotinamide adenine dinucleotide, nicotinamide adenine dinucleotide phosphate, flavin adenine dinucleotide, adenosine triphosphate, thiamine pyrosphospohate, flavin mononucleotide, biotin, tetrahydrofolic acid, coenzyme B12 and coenzyme A.
- cofactors such
- a monoclonal antibody may be prepared in accordance with this invention that combines the relatively inefficient catalytic capabilities of a cofactor alone with the highly specific and efficient advantages of the monoclonal antibody.
- mice are inoculated with the cofactor bound to the reactant or to an analog of the reactant or product, and the general technique of Koprowski described above is followed.
- a series of hybridoma cells is then prepared according to the general method and screened for the production of monoclonal antibodies which can complex with free cofactor and reactant, increase the rate of the chemical reaction and release the product.
- monoclonal antibody directed against indole pyruvic acid-pyridoxamine phosphate imine for example, selectively increases the rate of conversion of indole pyruvic acid to the amino acid tryptophan.
- the appropriate cofactor is added to the reaction mixture preferably in an amount at least equimolar to that of the monoclonal antibody.
- Bioproducts, Walkersville, Md.; Sp20 myeloma cells (ATCC CRL 1581) were obtained from the American Type Culture Collection, Rockville, Md.; other reagents, e.g. o-nitrophenyl- ⁇ -D-galactoside, 5-aminolevulinic acid, hydrogen peroxide, phenol, magnesium sulfate, sodium bicarbonate, indole-3-pyruvic acid, pyridoxal 5-phosphate molecular sieves and morpho CDI can be obtained from Aldrich Chemical Co., Saint Louis, Mo. BALB/C mice were obtained from the National Cancer Institute, Frederick Research Facility, Fredrick, Md. Adjuvants were obtained from Sigma.
- Mouse mammary tumor virus RNA may be extracted by conventional methods from a commercially available mouse mammary tumor virus, e.g. MTV ATCC VR-731 (American Type Culture Collection).
- the analog 3-glycyl-4-hydroxy-4-methyl-1,5-heptanedioic acid may be prepared by conventional synthetic methods, e.g. by base catalyzed condensation suitably protected molecules of aminolevulinic acid and levulinic acid (Aldrich) followed by deprotection and HPLC purification.
- mice One group of female BALB/C mice (Group 1 in Table 1) at 7 weeks of age were inoculated intravenously with 10 mg. of o-nitrophenyl- ⁇ -D-galactoside (ONPG) and intraperitoneally with 12 mg. of ONPG on day 0.
- the ONPG was dissolved in 0.1M phospate buffer at pH 7.3 at a concentration of 25 mg/ml and warmed to 37° C.
- the mice were inoculated intraperitoneally with 12.5 mg. of ONPG in incomplete Freund's adjuvant.
- the ONPG phospate buffer solution was mixed with an equal volume of incomplete Freund's adjuvant and emulsified prior to inoculation.
- a blood sample was obtained from each mouse on day 54. The serum was separated from the blood sample by centrifugation and stored at 4° C.
- mice inoculated as in Example 1 were inoculated intraperitoneally on day 91 with dinitrophenol (DNP) coupled to keyhole limpet hemocyanin (KLH) and emulsified in incomplete Freund's adjuvant.
- the inoculum contained 10 mg. of protein as determined by the method of Bradford, 1976, Anal. Biochem. 72:248.
- the dinitrophenol was coupled to KLH by the method of Little and Eisen, 1967, Meth. Immunol. Immunochem. 1:12.
- the DNP-KLH inoculation was repeated on day 101.
- the inoculum was prepared as described for the inoculum used on day 91.
- a blood sample was obtained from each mouse on day 105 and the serum separated by centrifugation and stored at 4° C.
- BALB/C mice (Group 2 in Table 1) were inoculated intraperitoneally with 50 mg. or 100 mg. of ONPG emulsified in complete Freund's adjuvant on day 0, intravenously, with 10 mg. of ONPG in 0.1M phosphate buffer (pH 7.3) on day 30, and intraperitoneally with 12.5 mg. of ONPG in incomplete Freund's adjuvant (25 mg/ml) on day 63.
- the mice were bled 9 days later, serum was separated by centrifugation and stored at 4° C.
- mice inoculated as in Example 3 were then inoculated, intraperitoneally, with 10 mg. of DNP-KLH emulsified in incomplete Freund's adjuvant on days 121 and 131, and bled on day 135. Serum was separated by centrifugation and stored at 4° C.
- the catalytic activity of antibodies which react with ONPG was determined in the following way. Fifty (50) microliters of diluted mouse serum obtained in Examples 1 and 3 as described above was contacted for 18 hours at 23° C. with 50 microliters of ONPG in PBS-Tween buffer containing 1% BSA. Similarly, 50 ng. of the enzyme ⁇ -D-galactosidase in 50 microliters of PBS-Tween-BSA buffer was contacted with the ONPG solution. Catalytic activity resulting in the formation of ⁇ -D-galactose and o-nitrophenol, which has a yellow color, was not detected with any of the serum samples. As expected the enzyme ⁇ -D-galactosidase had catalytic activity.
- Serum collected in Examples 2 and 4 from mice which had received additional inoculations with DNP coupled to KLH was then assayed.
- the serum was tested for the presence of antibodies that bind ONPG by the method described above. It was shown that serum from the immunized mice contained anti-OPNG antibodies. Serum at a dilution of 1:5,120 yielded a positive reaction for the presence of anti-ONPG antibodies. This demonstrated that additional immunizations with an analog coupled to KLH had resulted in an increased concentration of anti-ONPG antibodies in the serum. No reactions were seen using serum from mice that had not been immunized.
- Antibody-producing mice immunized as in Example 4 and assayed as in Example 5 are sacrificed and their spleens removed.
- the spleens of ten (10) mice are gently teased and passed through a fine nylon screen to yield a lymphocyte (spleen cell) suspension.
- the suspension is washed three (3) times in serum-free RPMI-1640.
- Myeloma cells derived from the SP2/0 line are grown in HB101 medium supplemented with 2% fetal bovine serum, penicillin and streptomycin (complete HB101).
- SP2/0 cells are subcultured daily for three days before use in cell fusions and are seeded at densities not exceeding 10 5 cells/ml. The SP2/0 cells are washed once in RPMI-1640 before fusion.
- a suspension of lymphocytes prepared as in Example 6 is mixed in a 4:1 ratio with a suspension of SP2/0 myeloma cells prepared according to Example 7.
- the cells are pelleted and a polyethylene glycol (PEG) 1450 (Eastman-Kodak, Rochester, N.Y.) solution (containing 50% PEG wt/vol in RPMI-1640) is then added dropwise to the cell pellets at a ratio of 1 ml of PEG to 1.6 ⁇ 10 5 lymphocytes.
- PEG polyethylene glycol
- the cell suspension is centrifuged at 200 ⁇ g for 5 min., the supernatant is removed and the cells are gently suspended in complete HB101 at a final concentration of 10 7 cells per ml. This final cell suspension is then dispensed in 100 ⁇ l volumes in wells of a 96-well microtiter plate and cultured at 37° C.
- HAT medium Complete HB101 supplemented with 1 ⁇ 10 -4 M hypoxanthine, 4.0 ⁇ 10 -7 M aminopterin, and 1.6 ⁇ 10 -5 M thymidine
- HAT medium complete HB101 supplemented with 1 ⁇ 10 -4 M hypoxanthine, 4.0 ⁇ 10 -7 M aminopterin, and 1.6 ⁇ 10 -5 M thymidine
- Microtiter wells containing hybridoma cells prepared according to Example 8 which produce antibodies capable of catalyzing the cleavage of o-nitrophenyl- ⁇ -D-galactoside into o-nitrophenol and D-galactose are assayed as follows: a second 96-well microtiter plate (the assay plate) is prepared containing a 0.05 M solution of o-nitrophenyl- ⁇ -D-galactoside in each well and maintained at 37° C. A 100 ⁇ l aliquot of the contents of each hybridoma-containing well of the first plate (hybridoma plate) is withdrawn and transfered to a corresponding well of the assay plate.
- the presence of o-nitrophenol is measured spectrophotometrically.
- five (5) minutes after each transfer a 50 ⁇ l aliquot of the assay plate well is analyzed by HPLC for the presence of one or both of the products.
- Each assay-plate well found to contain o-nitrophenol and D-galactose is identified and the corresponding hybridoma plate well is marked.
- Example 9 A portion of each catalytic hybridoma cell suspension identified in Example 9 is seeded in each well of a new microtiter plate.
- the plating efficiency of the hybrid cells is 50% (i.e., 50% of the seeded cells multiply to form colonies). With this procedure 80-100% of the wells yield colonies of hybrid cells within two (2) weeks.
- the hybridoma cells are again tested for catalytic antibody production by the method described in Example 9.
- Hybridoma cells which continue to produce catalytic antibodies are again cloned using thymocyte feeder cells, but at densities of one hybrid cell per three wells. The procedure is repeated whenever less than 90% of the clones from a specific set are making antibodies.
- the concentrations of monoclonal antibodies in the serum and ascites fluid of an individual mouse are roughly equivalent, each containing 5 to 50 mg of antibody per ml.
- the monoclonal antibody capable of catalyzing the cleavage of o-nitrophenyl- ⁇ -D-galactoside is then harvested from the serum or ascites fluid by conventional methods such as gel filtration or ultrafiltration.
- the ether portions are combined, washed once with 1.0 N sodium bicarbonate, dried over magnesium sulfate, filtered and concentrated under reduced pressure to yield D-galactose.
- the aqueous portion is then combined with the sodium bicarbonate wash and acidified to pH 3 by the addition of 5 N hydrochloric acid.
- the acidified aqueous portion is then extracted three times with ether.
- the etheral extracts are combined, dried over magnesium sulfate, filtered and concentrated at reduced pressure to yield o-nitrophenol.
- the o-nitrophenol and D-galactose may be further purified by HPLC or by recrystallization.
- Spleen cells for hybridization are prepared according to the method of Example 6, except that the BALB/C mice are immunized with 3-glycyl-4-hydroxy-4-methyl-1,5-heptanedioic acid.
- Myeloma cells are prepared according to Example 7.
- the spleen cells and the myeloma cells are then fused to yield hybridoma cells according to the method of Example 8.
- the hybridoma cells are then screened by a modification of the method of Example 9 in which the assay substrate is aminolevulinic acid (0.05M) and the assay tests for the appearance of an HPLC-peak corresponding to PBG.
- the hybridoma cells so identified are cultured according to the method of Example 10 and are obtained from mice according to the method of Example 11.
- a Schiff base is prepared by mixing 2.03 g (10 mmol) indole-3-pyruvic acid, 2.65 g (10 mmol) pyridoxamine phosphate and 3 g of dry 4 ⁇ molecular sieves in dry methanol under a nitrogen atmosphere. The reaction mixture is gently agitated overnight, filtered and concentrated under reduced pressure to yield the Schiff base.
- Spleen cells are prepared by the method of Example 6 except that the BALB/C mice are immunized with the Schiff base. The spleen cells so obtained are fused according to the method of Example 8 with myeloma cells prepared according to Example 7.
- hybridoma cells are then screened by a modification of the method of Example 9 in which the substrate is a mixture of indole-3-pyruvic acid (0.05M) and pyridoxamine-5-phosphate (0.05M) and the assay tests for the appearance of an HPLC peak corresponding to L-tryptophan.
- the hybridoma cells so identified are cultured according to the method of Example 10 and are obtained from mice by the method of Example 11.
- bovine serum albumin 50 mg
- cold water 8 ml
- morpho CDI 1-cyclohexyl-3-(2-morpholinoethyl) carbodiimide metho-p-toluenesulfonate
- mouse mammary tumor virus 35S RNA 50 mg
- the reaction mixture is allowed to warm to room temperature and is stored for 18 hours with periodic gentle agitation.
- the reaction mixture is then dialyzed against four changes of 0.05M ammonium bicarbonate followed by four changes of water.
- RNA-protein (BSA) conjugate is then lyophilized and weighed into vials for storage under nitrogen at -77° C.
- BSA RNA-protein conjugate
- KLH keyhole limpet hemocyanin
- OA ovalbumin
- RA rabbit serum albumin
- Spleen cells for hybridization are prepared according to the method of Example 6, except that the BALB/C mice are immunized with the BSA-bound 35S RNA prepared in (A) above.
- Myeloma cells are prepared according to Example 7. The spleen cells and the myeloma cells are then fused to yield hybridoma cells according to the method of Example 8.
- the hybridoma cells so obtained are screened by incubating aliquots of the microtiter well contents with 35S RNA in 0.5M phosphate buffer (pH 6.1) containing 0.9% NaCl at 37° C. for varying lengths of time.
- the RNA is then purified by phenol extraction.
- the number of fragments generated by antibody cleavage is determined by 2-dimensional polyacrylamide gel electrophoresis and the nucleotide sequence at each cleavage site is resolved. Both determinations are made according to the methods described by Schwartz et al. in Cell 32: 853-869 (1983).
- hybridoma cells are selected which produce monoclonal antibodies capable of catalyzing RNA cleavage only at Eco R1 cleavage sites.
- the hybridoma cells so identified are cultured according to the method of Example 10 and are obtained from mice by the method of Example 11.
- Mouse mammary tumor virus 35S RNA (50 mg) is added to 100 ml of distilled water buffered at pH 6.1 with 0.5M phosphate buffer containing 0.9% NaCl and maintained at 37° C.
- Monoclonal antibodies (5 mg) prepared according to Example 17 are added to the reaction mixture which is then incubated for 30 minutes with gentle agitation.
- the RNA is then purified by phenol extraction and the fragments purified by polyacrylamide gel electropherosis.
- Spleen cells for hybridization are prepared according to the method of Example 6, except that the BALB/C mice are immunized with the enzyme ⁇ -D-galactosidase.
- Myeloma cells are prepared according to Example 7.
- the spleen cells and the myeloma cells are then fused to yield hybridoma cells according to the method of Example 8.
- the hybridoma cells thus obtained are screened for production of monoclonal antibodies which bind to the active site of the enzyme. Screening is conveniently conducted by RIA assay of the competitive inhibition of the microtiter well contents against ⁇ -D-galactosidase and radiolabeled o-nitrophenyl- ⁇ -D-galactoside.
- Hybridoma cells so selected are then cultured according to the method of Example 10 and obtained in larger quantity from mice according to the method of Example 11.
- Spleen cells for hybridization are prepared according to the method of Example 6, except that the BALB/C mice are immunized with the monoclonal antibodies prepared and selected according to (A) above.
- Myeloma cells are again prepared according to Example 7.
- the spleen cells and the myeloma cells are fused to yield hybridoma cells according to the method of Example 8.
- the hybridoma cells thus obtained are first screened according to the method of Example 9.
- Hybridoma cells selected on the basis of the preliminary screening are then screened for allosterism. This is accomplished by measuring the presence of one of products according to Example 9, but at periodic time intervals. From the data so obtained, a reaction rate may be calculated.
- the hybridoma cells producing non-allosteric anti-idiotype monoclonal antibodies are cultured according to the method of Example 10 and obtained by propagation in mice according to the method of Example 11.
- the anti-idiotype monoclonal antibodes obtained in (B) may be used according to the method of Example 12.
- the right and left faces of symmetrical substrate I are distinguishable to a chiral reagent and so give rise to unequal amounts of the products from the two modes of attack. The difference may vary from essentially zero to 100%.
- a single enantiomer of A is isolated from the racemic mixture by selective deesterification of the phenolic hydroxyl of compound A.
- a catalytic antibody to hapten VI is isolated, which resembles the transition state for the hydrolysis of the underived R-enantiomer. It is used to selectively hydrolyze the R-enantiomer of III to the phenol IV. The remaining ester of the desirable S-enantiomers is stable and so separation of the two enantiomers requires isolation of phenol IV from ester V. This separation can be done easily using conventional separation techniques such as chromatography, extraction, etc. After separation, the desired enantiomer V is chemically hydrolyzed by base to its phenol.
- the substrate X can be used for screening for catalytic antibodies.
- Substrate X is added to each antibody-producing cell-line sample and the presence of catalytic activity will be measured by fluorescence of the 7-hydroxy-4-methylcoumarin that is generated. Strong fluorescence over time will indicate that a hybridoma cell line producing catalytic antibodies has been identified.
- the R 2 group in VI will become as shown in XI in order that the immunogen and the screening molecules resemble each other.
- the carboxyl group in XI is used to link structure VI to a carrier protein and is used for immunization. ##STR4##
- Immunogen (1) above will elicit antibodies that catalyze stereoselective cleavage of the chiral nitrophenyl ester substrate (2): ##STR6## to release P-nitrophenol which can be assayed spectrophotometrically.
- Stereoselective cleavage of chiral esters is important in the synthesis of optically pure pharmaceuticals, e.g., propranolol.
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Abstract
Description
K=k.sub.r /k.sub.p greater than 1 (1)
r.sub.1 >r.sub.0 (2)
r.sub.2 >r.sub.0 (3)
r.sub.3 >r.sub.0 (4)
TABLE 1 ______________________________________ Catalytic Activity of Mouse Sera and β-D-Galactosidase Absorbance at 405 nm.sup.1 Serum Dilutions 10 min. 18 hrs. ΔAbsorbance.sup.2 ______________________________________ Group 1.sup.3 ONPG antisera 1:10 .019 .023 .004 1:20 .005 .003 .000 1:40 .008 .010 .002 Group 2.sup.4 ONPG antisera 1:10 .006 .031 .025 1:20 .004 .042 .038 1:40 .006 .009 .003 Normal mouse sera 1:10 .003 .009 .006 1:20 .000 .000 .000 1:40 .005 .007 .002 β-D-galactosidase 50 ng .229 .362 .133 5 ng .029 .496 .467 0.5 ng .000 .112 .112 ______________________________________ .sup.1 Corrected for absorbance of serum. .sup.2 Difference in value, at 10 min. and 18 hrs. .sup.3 Sera obtained in Example 2 .sup.4 Sera obtained in Example 4
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US23730588A | 1988-08-26 | 1988-08-26 | |
US82450391A | 1991-01-23 | 1991-01-23 | |
US3951093A | 1993-03-29 | 1993-03-29 | |
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US4900674A (en) * | 1987-05-28 | 1990-02-13 | Scripps Clinic And Research Foundation | Antibody combining sites that exhibit amide or ester synthase activity |
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US4900674A (en) * | 1987-05-28 | 1990-02-13 | Scripps Clinic And Research Foundation | Antibody combining sites that exhibit amide or ester synthase activity |
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